d01e038210
This PR enables code generation to proceed in parallel to further elaboration. It does not aim to make further refinements such as generating code for different declarations in parallel or removing the dependency on kernel checking.
191 lines
4.4 KiB
Text
191 lines
4.4 KiB
Text
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[result]
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def Exp.casesOn._override._rarg (x_1 : obj) (x_2 : obj) (x_3 : obj) (x_4 : @& obj) (x_5 : @& obj) (x_6 : @& obj) (x_7 : @& obj) (x_8 : @& obj) : obj :=
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case x_1 : obj of
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Exp.var._impl →
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dec x_3;
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let x_9 : u32 := sproj[0, 8] x_1;
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dec x_1;
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let x_10 : obj := box x_9;
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let x_11 : obj := app x_2 x_10;
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ret x_11
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Exp.app._impl →
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dec x_2;
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let x_12 : obj := proj[0] x_1;
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inc x_12;
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let x_13 : obj := proj[1] x_1;
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inc x_13;
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dec x_1;
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let x_14 : obj := app x_3 x_12 x_13;
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ret x_14
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Exp.a1._impl →
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dec x_3;
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dec x_2;
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inc x_4;
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ret x_4
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Exp.a2._impl →
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dec x_3;
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dec x_2;
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inc x_5;
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ret x_5
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Exp.a3._impl →
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dec x_3;
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dec x_2;
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inc x_6;
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ret x_6
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Exp.a4._impl →
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dec x_3;
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dec x_2;
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inc x_7;
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ret x_7
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Exp.a5._impl →
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dec x_3;
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dec x_2;
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inc x_8;
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ret x_8
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def Exp.casesOn._override (x_1 : ◾) : obj :=
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let x_2 : obj := pap Exp.casesOn._override._rarg._boxed;
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ret x_2
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def Exp.casesOn._override._rarg._boxed (x_1 : obj) (x_2 : obj) (x_3 : obj) (x_4 : obj) (x_5 : obj) (x_6 : obj) (x_7 : obj) (x_8 : obj) : obj :=
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let x_9 : obj := Exp.casesOn._override._rarg x_1 x_2 x_3 x_4 x_5 x_6 x_7 x_8;
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dec x_8;
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dec x_7;
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dec x_6;
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dec x_5;
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dec x_4;
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ret x_9
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[result]
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def Exp.var._override (x_1 : u32) : obj :=
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let x_2 : u64 := UInt32.toUInt64 x_1;
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let x_3 : u64 := 1000;
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let x_4 : u64 := UInt64.add x_2 x_3;
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let x_5 : obj := ctor_0.0.12[Exp.var._impl];
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sset x_5[0, 0] : u64 := x_4;
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sset x_5[0, 8] : u32 := x_1;
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ret x_5
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def Exp.app._override (x_1 : obj) (x_2 : obj) : obj :=
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let x_3 : u64 := Exp.hash._override x_1;
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let x_4 : u64 := Exp.hash._override x_2;
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let x_5 : u64 := mixHash x_3 x_4;
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let x_6 : obj := ctor_1.0.8[Exp.app._impl] x_1 x_2;
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sset x_6[2, 0] : u64 := x_5;
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ret x_6
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def Exp.a1._override : obj :=
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let x_1 : obj := ctor_2[Exp.a1._impl];
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ret x_1
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def Exp.a2._override : obj :=
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let x_1 : obj := ctor_3[Exp.a2._impl];
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ret x_1
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def Exp.a3._override : obj :=
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let x_1 : obj := ctor_4[Exp.a3._impl];
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ret x_1
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def Exp.a4._override : obj :=
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let x_1 : obj := ctor_5[Exp.a4._impl];
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ret x_1
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def Exp.a5._override : obj :=
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let x_1 : obj := ctor_6[Exp.a5._impl];
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ret x_1
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def Exp.hash._override (x_1 : @& obj) : u64 :=
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case x_1 : obj of
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Exp.var._impl →
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let x_2 : u64 := sproj[0, 0] x_1;
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ret x_2
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Exp.app._impl →
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let x_3 : u64 := sproj[2, 0] x_1;
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ret x_3
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default →
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let x_4 : u64 := 42;
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ret x_4
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def Exp.var._override._boxed (x_1 : obj) : obj :=
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let x_2 : u32 := unbox x_1;
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dec x_1;
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let x_3 : obj := Exp.var._override x_2;
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ret x_3
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def Exp.hash._override._boxed (x_1 : obj) : obj :=
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let x_2 : u64 := Exp.hash._override x_1;
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dec x_1;
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let x_3 : obj := box x_2;
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ret x_3
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[result]
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def f._closed_1 : obj :=
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let x_1 : u32 := 10;
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let x_2 : obj := Exp.var._override x_1;
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ret x_2
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def f._closed_2 : obj :=
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let x_1 : obj := f._closed_1;
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let x_2 : obj := ctor_5[Exp.a4._impl];
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let x_3 : obj := Exp.app._override x_1 x_2;
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ret x_3
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def f._closed_3 : u64 :=
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let x_1 : obj := f._closed_2;
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let x_2 : u64 := Exp.hash._override x_1;
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dec x_1;
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ret x_2
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def f : u64 :=
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let x_1 : u64 := f._closed_3;
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ret x_1
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[result]
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def g (x_1 : @& obj) : u8 :=
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case x_1 : obj of
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Exp.a3._impl →
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let x_2 : u8 := 1;
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ret x_2
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default →
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let x_3 : u8 := 0;
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ret x_3
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def g._boxed (x_1 : obj) : obj :=
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let x_2 : u8 := g x_1;
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dec x_1;
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let x_3 : obj := box x_2;
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ret x_3
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[result]
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def hash' (x_1 : @& obj) : obj :=
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case x_1 : obj of
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Exp.var._impl →
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let x_2 : u32 := sproj[0, 8] x_1;
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let x_3 : obj := UInt32.toNat x_2;
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ret x_3
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Exp.app._impl →
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let x_4 : obj := proj[0] x_1;
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let x_5 : obj := proj[1] x_1;
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let x_6 : obj := hash' x_4;
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let x_7 : obj := hash' x_5;
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let x_8 : obj := Nat.add x_6 x_7;
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dec x_7;
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dec x_6;
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ret x_8
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default →
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let x_9 : obj := 42;
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ret x_9
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def hash'._boxed (x_1 : obj) : obj :=
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let x_2 : obj := hash' x_1;
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dec x_1;
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ret x_2
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[result]
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def getAppFn (x_1 : @& obj) : obj :=
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case x_1 : obj of
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Exp.app._impl →
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let x_2 : obj := proj[0] x_1;
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let x_3 : obj := getAppFn x_2;
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ret x_3
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default →
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inc x_1;
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ret x_1
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def getAppFn._boxed (x_1 : obj) : obj :=
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let x_2 : obj := getAppFn x_1;
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dec x_1;
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ret x_2
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[result]
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def Exp.f (x_1 : @& obj) : obj :=
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let x_2 : obj := getAppFn x_1;
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ret x_2
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def Exp.f._boxed (x_1 : obj) : obj :=
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let x_2 : obj := Exp.f x_1;
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dec x_1;
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ret x_2
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